The MONUMENT Experiment: Ordinary Muon Capture studies for 0νββ decay
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The MONUMENT experiment measures ordinary muon capture (OMC) on isotopes relevant for neutrinoless double-beta (0$\nu\beta\beta$) decay and nuclear astrophysics. OMC is a particularly attractive tool for improving the theoretical description of 0$\nu\beta\beta$ decay. It involves similar momentum transfers and allows testing the virtual transitions involved in 0$\nu\beta\beta$ decay against experimental data. During the 2021 campaign, MONUMENT measured OMC on $^{76}$Se and $^{136}$Ba, the isotopes relevant for next-generation 0$\nu\beta\beta$ decay searches, like LEGEND and nEXO. The experimental setup has been designed to accurately extract the total and partial muon capture rates, which requires precise reconstruction of energies and time-dependent intensities of the OMC-related $\gamma$ rays. The setup also includes a veto counter system to allow selecting a clean sample of OMC events. This work provides a detailed description of the MONUMENT setup operated during the 2021 campaign, its two DAQ systems, calibration and analysis approaches, and summarises the achieved detector performance. Future improvements are also discussed.
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Cited by 2 Pith papers
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Uncertainty Quantification of the $^{76}$Ge Neutrinoless Double-Beta Decay Nuclear Matrix Element
Shell model calculations with bounded fluctuations in two-body matrix elements and Bayesian model averaging produce a 76Ge 0νββ nuclear matrix element of 2.46 with standard deviation 0.25.
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Determination of the Muon Lifetime in $^{76}$Se with the MONUMENT experiment
Muon lifetime in 76Se measured as 135.1 ± 0.5 ns, agreeing with QRPA calculations using unquenched axial-vector coupling.
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